Huan Xu, Wangnian Zhang, Mengxian Zhang, Ming Cao, Xitang Wang
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Abstract
In the present work, dense CaZrO3 ceramics were prepared by a conventional solid-state reaction using high-purity commercial ZrO2 and Ca(OH)2 as raw materials, and BaO as a sintering aid. The effect of BaO addition on the sinterability, phase composition, and microstructures of CaZrO3 ceramics was investigated. The grain growth kinetics was also analyzed based on the classical Brook model. The results showed that an appropriate amount of BaO addition has a significant positive contribution to the densification and grain growth of CaZrO3 ceramics. However, excess addition gives rise to the formation of BaZrO3 at the grain boundary, which dramatically hinders the grain growth and thus degrades the sinterability of CaZrO3 ceramics. The enhanced sintering mechanism is related to lattice distortion generated from the substitution of Ca2+ sites by larger Ba2+ ions. The grain growth kinetics analysis demonstrated that the grain growth activation energy is affected by the BaO addition, and the value is decreased from 65.5 to 55.4 kJ·mol−1 as the BaO content increases from 0 to 1 wt%.
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